Palace of Peace and Reconciliation
Landmark structure, cultural centre and opera house in Astana.
Asia Park Residential Complex
Project type: Mixed-Use / Residential / Retail / Offices Scale: 91 750 m2 Scope: Concept Design The new high-rise architectural landmark in the heart of Astana The project is a spatial and program continuation of existing shopping centre – Asia Park Astana – it creates complete mixed-use development with shops, apartments, offices, underground parking, entertainment, plaza, roof park. It is located along south side-wall of main representative urban axis of the city between Presidential Palace and Khan Shatyr Entertainment Centre.
Bio.Tech Hut
Modern masterplanning rationally separates all functions. Zones of production and treatment of waste were moved further out of city centres originally mainly to prevent possible contamination and pollution of the living and leisure quarters. But also removing the by-products of the urbanisation from our sight and more profoundly also from our consciousness. This is the origin of the modern, industrialized and metabolically linear city. Resources go in and waste comes out. It is up to the Biosphere to close the loop and today we all know that its ecosystems can no longer cope. With a global urban population of 4 Billion people we now need architectures that are capable of closing the loop, implementing circular metabolisms where production and consumption are interconnected, on site. A new urban Habitat Following this ambition in Astana (Kazakhstan), we have recently completed BIO.tech HUT, the world's first permanent biotechnological dwelling. It is based on the idea of creating habitats for microalgae organisms grown as part of building envelopes. Cyanobacteria like the ones in BIO.tech Hut have exceptional properties, that scientists keep refining in labs, and that make them capable of turning what we consider pollution or waste into nutrient and raw material; for this reason we see them as the potential missing link to a true closed urban metabolism. Within the new design framework of BIO.tech HUT microalgae are not only able to photosynthesize by capturing solar radiation, but also to absorb emissions from the building itself, especially CO2. They become a new active layer that is part of both city and natural metabolic cycles. Lab, Living and Garden The BIO.tech HUT is composed of three fluidly interconnected environments that loosely embody the fundamental programs of a living space. The Lab is a space of science and rationality, where new species of micro-organisms are domesticated and engineered into artificial cultivation environments, growth patterns and material assemblies. This is where the unique efficiency of the system is developed. The Living Hut is a space of beauty and artistic experience. It is flooded with natural light and inhabited by photosynthetic colonies of Chlorella which visitors are encouraged to nurture with carbon dioxide from their exhale while liberating clouds of oxygen. The Garden Hut is a communal and open space for production and crafts. At the core of it is the harvest area for the collective processing and transformation of biomass into food and biofuel. In keeping with the ethos of the project, the structure and the systems of the BIO.tech HUT express the ideal of symbiosis between human and non-human organisms. Coils of lab grade glass tubes wrap the 3 main spaces supported by a series of sectional frames in high-performance honeycombed polycarbonate. The resulting structure is lightweight, fully recyclable and has the unique effect of scattering and enhancing the penetration of solar radiation deep into the BIO.tech HUT and to the photosynthetic cultures. Living cladding The Bio.Tech Hut is 180sqm in plan, can host a large family and supports 1600L of living cultures of cyanobacteria in its lab grade glass photo-bioreactors. Designed in collaboration with marine biologists and specialized algae farmers, the photo-bioreactive cladding of BIO.tech Hut is a first-of-its-kind revolutionary system. It uses high-speed air flow to lift the living medium into the glass tubes. The air stream creates eddies on the fluid inside the tubes, and generates a stirring effect that catalyzes the desired O2 / CO2 exchange. The fluid then descends by gravity to complete each loop. The multiple loops of glass tubes are coiled around the BIO.tech HUT and integrated in its cladding to become architectural elements, so that they are literally inhabited. Urban Self-sufficiency In optimal conditions BIO.tech Hut produces approx. 1kg of dry algae per day. Green microalgae can contain up to 60% oil from which 1kg of biofuel can be produced, releasing 10 KWh of energy. That is enough to power an average UK home which makes Bio.Tech Hut energetically self-sufficient. But our principle of urban symbiosis extends to food and nutrients; these are a crucial cycles where important changes are required to feed a healthy and affordable diet to a growing urban population that is predicted to reach 5 billion in the next 15 years. A microalgae like Chlorella contains up to 60% vegetable proteins. Every day the BIO.tech HUT produces up to 600g of proteins, enough to supply the recommended daily intake of 12 adults. This is the equivalent, in meat based proteins, of 8 cows! And of course reducing farming also means reducing emissions of green house gasses. Moreover the living cultures of Chlorella growing within the BIO.tech HUT glass photobioreactors absorb 2kg of CO2/day. This is equivalent to the CO2 adsorbed by 32 large trees, it is a family run urban forest. A living machine These numbers give us a spatial and material dimension of the efficiency of building integrated microalgae cultures and the renewed ability of the urban fabric to synthesize resources. The microorganisms grow faster in our artificial environment than in the wild because they are very closely connected with the life of the building and that stimulates its biomass to grow; the biomass in turn is used by the inhabitants of the building itself as source of energy and food. It is a new kind of symbiosis. It is a crucial transition; the urban environment stops being just a container of programmes or functions, like in the modernist 'machine for living', and becomes itself a dynamic process of production, a 'living machine'. And a living machine has an ability to harvest and process matter, information and energy in a way that differs radically from how we produce and distribute energy today, even renewable ones. Under this premise the linear metabolism of the modern city can evolve into the many interlocking circulars metabolisms of the Bio-City of the future.
The Green Island in Astana
The island is located in the bed of the Yesil River, amidst the urban development in the central part of Astana. It remains the only undeveloped unique place with a vast territory.There have been many different proposals for the island’s development. However, for the people, it would be best if this island were transformed into a green oasis. Why not! Green hills are formed on the roof through the varying heights of universal blocks and the covering of the complex’s public spaces. These, when combined, create expansive open areas accessible to all city residents and a vibrant landscape on the island. Beneath the canopy of the green park lie covered streets and squares, complexes of fairy-tale attractions, shopping and entertainment zones, and business centers. The integration of hotel and affordable residential structures within the complex ensures round-the-clock activity. In the conditions of Astana’s sharply continental climate, the year-round operation and maintenance of the rooftop park rely on the complex’s infrastructure. The upper technical floors beneath the usable roof provide reliable waterproofing and protection from overheating. The city, in addition to using “smart” and “green” technologies, incorporates several innovative eco-friendly solutions: • Fully restores the land area occupied by the city on the roof. • Creates a landscape that preserves the integrity of the park. • The compactness of the covered city significantly enhances its energy efficiency. • The absence of underground floors eliminates the need for excavating and storing millions of tons of soil, constructing basements, and managing groundwater, thus preventing environmental damage. The use of the complex’s ground floor for transportation and technical infrastructure ensures: • Free-flowing roads and passages beneath the complex, with easy access from all floors. • Separation of transport and pedestrian flows within the covered city’s space. • The operation of transport and technical structures as a unified system. • Sufficient covered parking spaces within the complex, eliminating the need for outdoor parking lots. • Effective air purification in the enclosed spaces of parking areas, roads, and other technical premises, specifically where harmful emissions occur. The large-scale recreation of the natural landscape and the harmonious integration of the city with nature are the key innovative solutions of the project, ensuring its sustainable development amid global climate challenges. Project Specifications: •Site area: 110 hectares •Total complex area: 1,350,000 m², including: •Public spaces: 700,000 m² •Hotels and residential areas: 300,000 m² •Technical premises and parking: 350,000 m².
Astana University of Sports
Campus facilities consist of modules and branches of education, as big “campuses” develop in time. In a city like Astana, the vision for the project is to create a new sports university complex from scratch, targeting a holistic, all-inclusive space of multiple functions, under a sole roof; a campus that answers every demand of the user, which is “the student”. Astana is a capital with difficult summer – winter conditions, therefore the design approach brings together all of the mentioned “lifestyle” in the campus under one backbone “gallery” structure. Started construction earlier and left unfinished, the new design considers benefiting the existing construction for budgetary, and production purposes. The task is to unify the campus into “one” including the transformation of existing buildings. “unifying grid” approach is introduced at this point, as the whole complex, landscape, rooftops, and interior modules, atriums derive from this grid, referencing and reaching out the very different functions of the buildings, correspondingly defining easy access and clear directions. Closed sport venues, open tracks and fields, training areas for each sport, research facilities, classrooms and an auditorium for theoretical education and events, plus the social facilities come together around a massive “backbone” gallery, connecting and unifying and each and every need of a user inside. Landscaping and hardscaping elements are designed to generate the feel of an “urban park under one roof”. Yet it is a closed building, the main gallery and atriums are “semi-interior” spaces with maximum controlled daylight and trees to rest under their shadow finding the balance between protection and freedom. Wooden deck steps and seating areas connect the main gallery with the atriums, and generates even more space to meet and share. The whole idea revolves around “freshness” and “activity” as a sports university, besides the pertinent functions, to gain a further visual impression for this “concept of dynamism”, the red hanging running track, brings the energy and playfulness to the main gallery, imagining arts and sports together. The red track becomes a domineering conceptual yet basically functional form.
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Open in Atlas MapFrequently Asked Questions
How long does the Astana architecture walking tour take?+
The self-guided walking tour covers approximately 9.4 km with 3 stops. Allow approximately 3 hours including 20 minutes of viewing time per building.
Is the Astana architecture tour free?+
Yes, this is a completely free self-guided walking tour. You can view the route on the interactive map, export it to Google Maps for navigation, and explore at your own pace.
Do I need to book the Astana architecture tour in advance?+
No booking is required — this is a self-guided tour that you can start at any time. All buildings can be viewed from the outside. For guided tours with expert commentary, we recommend checking GetYourGuide for local architecture tours.
What is the best time to do the Astana architecture walking tour?+
Morning light (before 11am) is ideal for photography of building facades. Weekdays tend to be less crowded around commercial buildings. Allow a full morning or afternoon for the complete tour.